Apparatus for measuring and recording the direction and velocity of wind



Aug. 18, 1953 E. WOOD EIAL 8,

' APPARATUS FoR MEASURING AND RECORDING THE DIRECTION AND VELOCITY OF WIND Filed Oct. 27, 1949 5 Sheets-Sheet 1 SPEEDN E S W otkoooo/wh INVENTORs L 00 WW 5 W000 VERNON l2 HAUCK ATTORNEY Aug. 18, 1953 E. WOOD ETAL ,6 8,

APPARATUS FOR MEASURING AND RECORDING THE DIRECTION AND VELQCITY OF WIND- Filed Oct. 2'7, 1949 5 Sheets-Sheet 2 ATTORNEY Aug. 18, 1953 E. WOOD ETAL APPARATUS FOR MEASURING AND RECORDING THE DIRECTION AND VELOCITY OF WIND 5 Sheets-Sheet 3 Filed 0012. 27, 1949 mh Nm 02 RE uvvzzlvrog L 00 VAN E W 00 VERNON 0. HAUCK mi; Arm/Mfr 4 Aug. 18, 1953 5, 001 ETAL 2,648,980

APPARATUS FOR MEASURING AND RECORDING THE DIRECTION AND VELOCITY OF WIND Filed Oct. 27, 1949 5 Sheets-Sheet 4 ION Q 070) COG) INVENTORS LOU VAN E. W000 VERNON D- HAUCK 57 ATTORNEY Aug. 18, 1953 L. E. WOOD ETAL APPARATUS FOR MEASURING AND RECORDING THE DIRECTION AND VELOCITY OF WIND 5 Sheets-Sheet '5 Filed 00%.. 27, 1949 INVENTORS Louvan, E Wood Vernon D. Hauck BY W ATTORNEY latented Aug. 18, 1953 APPARATUS FOR- MEASURING AND RECORD- ING THE DIRECTION AND VELOCITY F WIND Louvan E. Wood, Glen Arm, and Vernon D. Hauck,

Towson, Md., assignors to Bendix Aviation Corporation, Baltimore, Md., a corporation of Delaware Application October 27, 1949, Serial No. 123,868

17 Claims.

uring and recording the velocity and direction of wind wherein its operation requires no external source of power and the operation will remain uninterrupted for periods of time without need for attention.

In many outlying weather stations, there is normally a deficiency of electrical power and it is highly desirable to provide instrumentation for such stations that requires no external source of power. Furthermore, such stations are usually unattended and it is necessary that the instruments function uninterruptedly for periods of time, without attention from an observer.

In the case of a wind measuring instrument, the problem is somewhat simplified because of the power available from the wind itself. Whatever means is utilized to measure wind velocity and direction is, of necessity, actuated by the forces developed by the fiow of wind. However, recording wind conditions presents a problem in View of the fact that power is required to transmit the response of the wind sensitive units to a suitable recorder located relatively remote from the units.

The problem is further complicated by virtue of the fact that it is highly desirable to elevate the wind sensitive units to a sufficient height for good exposure to the wind. Under these conditions, it is desirable that some system be utilized to transmit the output of the win-d sensitive units to a recording instrument conveniently situated on the ground.

The present invention utilizes a novel pneumatic system for transmitting to the recorder unit the output of the wind responsive units. In essence, the pneumatic system utilizes an expansible chamber associated with means for intermittently varying its volume in response to wind flow of unit velocity, thereby to deliver intermittent impulses of fluid pressure. I Also carried by the transmitter is a four-way valve responsive to wind direction for selectively directing the impulse of fluid pressure into at least one of four fluid paths leading awayfrom the transmitter.

The four fluid paths are normally defined by a multi-bored rubber conduit which connects the transmitter to the recorder. Each one of the fluid paths is connected to an expansible chamber device carried by the recorder, and, with this arrangement, it is apparent that the impulse of fluid pressure generated by the transmitter will be carried to at least one of the expansible chamber devices carried by the recorder, thereby causing same to change its volume and thus actuate a recording pen through a suitable linkage system. A conventional clock-driven chart-recording apparatu is provided to cooperate with the recording pens to make a permanent record of wind conditions.

From the above, it is seen that the energy developed by the flow of wind is utilized to actuate the recording apparatus in a novel and useful manner. Furthermore, the novel pneumatic system mentioned above provides means for channelling the energy of the wind in accordance with wind direction so both wind velocity and direction are simultaneously recorded. Thus, it is seen that the present invention provides for recording of wind conditions, the power for operating same being drawn from the wind, the only requirement for attention being the necessity of periodically winding the clock which drives the chart.

The function and operation of the invention will be readily apparent upon an inspection of the drawings annexed hereto, when taken with the description of the invention set forth below.

In the drawings:

Fig. 1 is a view in elevation showing the complete assembly of the invention proposed herein. The wind responsive unit is shown as mounted on a mast or tripod and connected to a recorder by means of a flexible hose.

Fig. 2 is a partial view, in elevation, of the transmitter shown in Fig. 11, having a cut-away portion to permit a sectional showing of the inner working parts of the transmitter.

Fig. 3 is a view of the slotted cam shown in Fig. 2, wherein the cam has been rotated approximately degrees in a direction toward the reader.

Fig. 4 is a more detailed sectional showing of its corresponding parts shown in Fig. 2.

Fig. 5 i a sectional view taken along the lines 5-5 in Fig. 4.

Fig. 6 is a sectional view taken along the lines 6-6 in Fig. 4.

Fig. 7 is a bottom view showing that portion of the assembly embraced by lines 1-! of Fig. 4.

Fig.8 is a partial plan view of the top of the recorder shown in Fig. 1, with the top cover removed.

Fig. 9 is a back-view in elevation of the mechanism shown in Fig, 8.

- Fig. 10 is a front view in elevation showing that part of the mechanism embraced by lines Ill-I0 in Fig. 8.

- Figs. 11, 12, and 13 are exploded views of the 3 ratchet mechanism shown in Fig. 8, showing the several positions of the mechanism over a successive cycle of operations.

Fig. 14 is a sectional view along the lines |4l 4 in Fig. 2.

Fig. 15 is a side-yieyv ;in elevation of the inkwell and pen assembly.

Figure 16 is an enlarged view in elevation show.- ing the assembly of the pressure responsive capsules I56, I41, I48, and I49.

Figure 17 is a side-view .of the arrangement shown in Figure 16.

Figure 18 is a partial seetionale giew taken along the lines |8l 8 in Figure 17 Referring first to Fig. 1, there is shown the complete assembly of the various units which constitute the present invention. The assembly comprises a transmitter 20 adapted for suitable mounting on a mast 2|. Extending from the transmitter and carried within the mast 2| is a flexible rubber conduit 2,2 which, in turn, is suitably ciqnn d to t e r cor r 2 he ra s tt 29 may be of the type shown mil. 's. Patent No. Des. 145,345 issued Jul 30,

1946, in the name of Louvan E. Wood, and comtively. Cooperating with the recorder is a chart roll 5 33 adapted to be inovedwith relation to the recording pens by means of a conventional clockdriven motor. The recorder 23 has a suitable window 34 arranged in itsfront face to permit visual inspection of the markings on the chart.

The apparatus is so designed that the rotor 24 will rotate in proportion to wind velocity and by the novel mechanism to bedescribed below this rotation of the rotor istrans nitted to the re.- cording pen 2'! so that unit wind velocity can be graphically reproduced on the chart 33. In a similar manner the direction recording pens respond to changes in wind direction as sensed by the vane'tfi' to give graphic indications of; wind direction.

T ransm t e The assembly and operation of the transmitter 2-0..will'no.w be described to illustrate the manner in which wind velocity anddirection can be converted into output indications.

For the assembly and operation of the transmitter Zii, reference will now be had to Fig. 2,

wherein there is shown a partial View in elevation.

of, the transmitter having, a portion of its body removed to permit a sectional showing of the inner worlging parts of, the transmitter. The transmitter body 24 comprises a medial section 3 5 a nose section 3,6, and a tail section 31. These three sections are suitably connected in any consr iieealmenn r to form a nte al body- The aforesaid sections 3 5,}5, 3,1 h l /6a substantially cylindrical configuration, the medial section .35 a n nnu ar fi esefi. projectin romits bottom surface, a shroud 39 being suitably secured to.the i ee s The rotor 25 is carried by the nose section v3E nd i ieu ea esi i .re et nthe e n he pr pellet l edesb h FQPQ? eresecu ed t a hub 41 which, in turn, may be secured to the collar 2.1w i screws 3 01. 9 Qt hiehis lzewr .51 has an output shaftEE which has one end supported for rotation in the Wall 53 and the other end snpportedforrotation in a bracket 54, rigidly secured to the wall 53. The shaft 52 has integrally associated therewith a gear 55 which, in turn, engages a gear as provided with a suitable bore for receiving therein the end projecting from cam 51, the gear 56 and cam 5'! constituting an integral unit when assembled. The cam 51 and its associated end are substantially hollow and are journaled for rotation about the shaft 5 8- which has one extremity secured to the wall and its other extremity secured to the wall 59. The bearing arrangement El provides for sub stantially frictionless rotation of the cam 51.

With the aforementioned assembly in mind; it is apparent that the movement of the rotor 25 causes the shaft to rotate, which, in turn,

causes the shaft 52 to rotate at a reduced speed by virtue of the gear reduction unit 5] coupling the two shafts together. Rotation of the 52 causes corresponding rotation of gearsi55 and 55, which causes cam 51 to rotate, the rotation of cam 51 being proportional to the rotation of the rotor 25.

The gears 55, 56 may be supplied indifferent matching sizes for producing an output indication corresponding to kilometers or miles per hour, or knots whichever is desirable.

'afiixed to the end portion 6'! and locate he c m ha a li al slot ranseda ut its P h alsu n s has. a bstantially axial slot 63 in its peripheral surface which inter} sects adjacent spirals of the helical slot 63. A caln follower 6,4 rides in the slots 62, 15 3, the follower ein ri y ecu d to a F 3 6.5 .slideb supported within the wall 59 by means of linear roller bearings 69. In the arrangement shown, e am t t s in a lockwi e d ec i nzwhen. viewed. from the nose end of the transmitter 23, The rotation of thecamtl willcause thef ollower to move axially in a direction toward thehose end of the transmitter until such time asthe follower 64 is in proximity to the axial slot 63.,

' In this position of the cam 5l, the slot 63 permits the follower 64 to move axially to its starting position.

A -s e es Strap th -v e a end rno .51

is secured to the tail face of the wall 5}}, R'g1 y proximity to its inner surface is one end-oi a exi le corr a ed m tal i bell s $5 The other n of t e m l c b l ow 6.8. .5 in th orm of cup 69 which has secured thereto the enlarged; head H of the rod 55. A compression spring 12; surrounds the enlarged central portion of wall 59 and has, its ends abutting the wall 59 and. the cup 69,.re.$pectively. With such an arrange:. ment, itis apparent that the cam 51' moves the,

m ll e 5 s assoc e md 5120 over.-

q e e i r e establi ed b s in .2..- until ch me as tha o l ws 4 i in roa mitv to.the slot 63 of the cam- 51, With-the drtfiin this position, the spring. 12 will cause. thefrod 65 to rapidly travel to its innermost position. Thus, the rod 65 continuously reciprocates and the number of reciprocations in any given time interval is proportional to the revolutions of the cam 51 during the time interval.

The reciprocation of rod 65 permits the interior volume defined by the bellows 68 to expand relatively slowly and thence to contract relatively rapidly. The rapid contraction or compression of the bellows 68 has the effect of momentarily raising the pressure within the bellows 68; that is to say, an impulse of fluid pressure is generated by the action of the bellows 68. Furthermore, each increase in pressure corresponds to a predetermined quantity of wind flowing past the transmitter and, therefore, the number of pressure impulses established in a given time interval establishes the total wind flow in a given time interval, which, of course, is a measure of wind velocity. A tube 13 is affixed to the tail end of the bellows 68 and has its bore in communication with the interior of the bellows.

A strap assembly 14 has its ends secured to the inner walls of the medial section 35, the strap assembly 14 having an aperture located centrally thereof for receiving therein the reduced end 15 of a vertical shaft 16. The shaft 16 and strap assembly 14 are rigidly secured together. Surrounding the shaft 16 is a substantially cylindrical post 11 which has its bottom 18 rigidly secured to a cylindrical member 19 extending downwardly therefrom. The member 19 projects through the shroud 39 and provides the means for rigidly supporting the transmitter 28 to the mast 2| in a manner to be later described. The post 11 has arranged centrally of its bottom portion 18 the bearings 8| which serve as a combination thrust and rotating bearings for the shaft 16. Thus, it is apparent that any movement of the transmitter body 24 will cause its associated shaft 16 to rotate in a proportionate amount.

Extending upwardly from the bottom surface of the post 11 are the ports 82, 83, 84, 85, the ports being spaced equidistantly about the axis of the post 11; that is to say, the ports are 90 apart. The ports 82, 84, terminate in a pair of horizontal ports 86, 81, each of which subtends an angle of approximately 135 about the periphery of the post 11. In a similar manner, the ports 83, 85, terminate in a pair of horizontal ports 88,

89, each of which also subtends an angle of 135 about the periphery of post 11. It is to be noted that the ports 88, 89 are located above the ports 86, 81. A pair of lands 9|, 92, separate the port 86 from the port 81 and a pair of lands 93, 94, separate the port 88 from the port 89. Surround.- ing the post 11 is a collar 95 which has an elongated vertical orifice 96 so dimensioned as. to be adapted to register with either of the ports 86, 81 or 88, 89. The collar 95 has a pair of pins 91, 98 projecting from the opposite sides thereof and these pins are adapted to cooperate with a U-shaped bracket 99 rigidly secured to the assembly of the strap assembly 14 and shaft 18. The manner in which the U-shaped bracket 99 is assembled to the remaining parts of the structure is best shown in Fig. 14. The legs of the bracket 99 extend downwardly from the strap assembly 14 and the ends of the legs are slotted to receive therein the pins 91, 98. Thus, it is seen that any rotation of the transmitter body 24 will cause rotation of the U-shaped bracket 99 which, in turn, will cause the collar 95 to rotate about the post 11 to position the orifice 96 in accordance with wind direction. The orifice 96 and duced end I89 of member 19.

I89 fits. over the upper end of the mast 2| and. is properly positioned thereon by means of a bolt III, which engages the slot '2 in the re the four ports 86, 81, 88, 89 constitute a distribu-:

tion valve assembly for controlling the path of impulses of pressure. Afiixed to the collar 95 so as to cover th orifice 96 is a plate I8I, the plate having a tube I82 located centrally thereof and extending toward the nose end of the transmitter. interior of the tube I82 communicates. with the orifice 96. .The ends of the tube 13 and h tube I82 are substantially in juxtaposition, but not necessarily connected together, there. bein a rubber tube I83 surrounding the ends and sealingly engaging same. The last-mentioned arrangement permits the orifice 96 to be in communication with the interior of the bellows 68.

The ports 82, 83, 84, 85 are slightly. enlarged at their lower extremities so as to receive the metallictubes I84, I85, I86, I81. The tubes can be suitably soldered or brazed into place so that same are rigidly secured to post 11. These tubes project downwardly through the interior of tu-.

bular member 19 and are brought togetheras.

shown to extend. through a suitably apertured annular disc I88 rigidly secured within the reduced end I89. The bolt III is arranged to face south, for purposes of orientation durin assembly of the transmitter on the mast.

The mast 2| comprises a hollow tube and has an annular shoulder II3 at its upper extremity, A coupling assembly is supported on the shoulder H3 and comprises a cylindrical member II4 to which is rigidly secured by screws a top and bottom circular plate H5 and H6, respectively. The member II4 may be secured by screws to the mast 2I. The plate H5 is suitably apertured to receive ,therethrough the projecting ends of the tubes I84, I85, I86, I81. Confined within the cylindrical volume defined by the couplingassembly is a suitable sealing arrangement which, in this case, comprises an outer rubber tube II1, which, in turn, confines an inner rubber tube II8, the tube II8 being suitably apertured to receive therein the projected. ends of the tubes I84, I85, I86, I81. The plate H6 is suitably apertured to register with the apertures in rubber tube H8 and a series of relatively short metallic tubes II9, I2I, I22, I23 project upwardly into the rubber sealing assembly and are rigidly secured to the plate H6, as by brazing. The rubber conduit 22 engages the lower end of the tubes II9, I'2I, I22, I23 and is suitably apertured to coacttherewith. Theconduit 22 connects the transmitter 28 tOthGfI recorder 23. 'A conventional hose clamp I24 may be used to hold the conduit 22 in place.

The coupling assembly comprising the member [I4 and plates H5, H6 also serves in combination with the upper extremity of the mast 2| as the supporting means of the transmitter 28, by virtue of the disc I88 resting thereon.

From the above, it is apparent that the interior of the bellows 68 is in communication with the four paths in the conduit 22, by means of tube 13, tube I82, orifice 96, ports 86, 81, 88, 89, ports 82, 83, 84, 5, tubes I84, I85, I86, I81, short rubber hose II8 andthe tubes H9, I2II I22, and I23.

As the transmitter 28 is rotated by the vane 26 in response to wind direction, the orifice 96 will be rotated about the post 11. Such rota-. tion .of theorifice 96 willplace the interior Of The.

The reduced end- 7 the .bellows s68 Jinrcommunioation Witha at lea'st onesofi thezportsBfiQtiL BBQB9eand no more than two of these ports, at any given positi'on of the orifices96. In the position shown in Figs; 5, and 6,:iti is .apparentzthat:theorificeiSG :is 'in :oom munioation solely =with'..port.-86by virtue of the fact that the land e94 prevents communication withieitheri-of the..prts. 88, 89. Stillsreierrih to Figss and '6, if'i-the :orifice dt is movers-en aclockwise .-.direction, :the interior .yof Lthe Lbellows' Saw/ill sbeainacommunicatien with;ithezzports 8'6, 88, ':'whereas ifor :counterelockwise .rotation .of orifice 96,..theiinterior of Lthe bellows 68 williabe in. communication width 'the parts A36, .139. As designed; .the :.ports- 86381 38,.389 :correspondtto the ic'ardinal compass --.directions v north, south, east, and west, respectively.

The; tube .123 is directlyooppesitertha' bolt IN and: correspondszto the south fdirection. finitablezmarkings on .the conduit22 areprovidedrto match its. openings to: theJright tube'soithat: the other ...end..of the .conduitiz can-be properly oriented-with respect tothe-recorder 23.

From theabove, itjs. apparent. that the;t-ransmitterzZiI is. continuously. delivering. impulses :of fluid pressure .to the ..conduit :22, the. particular path of. the impulses .being -determined: hyithe position ofthe orifice: 96.

. Recorder Referring nowitoi Eigs.. 8, 9, 10, 1 1, l2. and .13, the assembly and operation of: the recorder'will be described.

As-state'd .above, the recorder .23 .c'omprises a conventional :cloch-driven chart recorder; arranged withinaa suitable housing and provided with a window 234. for observation of .the markings on the. 'cha'rt 33. :This. :part of: the recording zmechanism is conventional. and. forms no part of the subject invention and,::or: reasons of---olarity and -brevity, there is omitted.- anydescription of the operation of the driving mechanism for I the xchart and its associated :..parts. However;- the -invention contemplatesthe vuse.:of a novel recording .pen actuating mechanism which can be suitably-secured .to theorecorder assembly. [The aforementioned .mechanism comprises a plate I .having :dependingiront and back walls: [26,: I21. respectively;:an d azpair of vertically: extending side walls 'I28,.-'l'29',"respeetively. Suitably secured .to the.-.side 'walls I28, I29 iisa-baclo'platel I3 I. The sidewalls: L28; I2 9 shave their; front -.:ends :130 turnediiin so to 'permit; securing. of same .to' theturned inside Walls Mneof the: recorder 23. In thi zzmanner.

fiexiblemetallic shells, assembledinnestinefirela The; construction of the capsules-Will.

8 ti'on'shipandhermetically joined: together at their periphery. The outer' shell, -partially shown in Figure l8 -an'd designatedas 'zlihas aflixed' thereto, by meansof soldering, or welding; or the like, a driving stud 204. In a--similar-manner,-'driving studs 26L -202, and-2fl3 are aiiixed to capsules Hi6, -I4'I,-an'd Mil-respectively. T-he inner-shell of capsule I 39, "partiallyshown -in'--Figur-e 18: and

designated as *2I 6, has afixed thereto by means of soldering, or welding, or th'e I-ike,"the==s'tudsupport 2 I1. Stud 2 I -I has a "threaded portion 2 I8 for cooperating with an aperture -in bracket I 54 the-bracket I54 being rigidlysecuredtmplate i25 -by-means of-serewsor thelike. A n-ut cooperates with thread-ed portion-2 I 8-and braeket I54 to --rigidly mount thecapsule I-flfl-on the bracket'member. In a sinii-lar manner, capsules M6, I41; and M8 have stud-supports siftixdthere to' for mountingthe capsules on plate-supported brackets I5 I, I52, and I53 respectively. p

The stud 2 I I has a' pair of bores -'2 I 9and 22-I, intersecting at rig-ht angles, the bore *2 I 9 -'-*comm-unicating with the interior of the'nested she'lls bymeans of aperture 222in'shell 2P6. The bore 22I'hasso1dered therein-the tube' 223, which' in turn is an integral '-part of tube assembly 'I'ZII. In alike-manner, tubeassemblies I-38,"I 39, and I'GI 'connectto the support 'studs ofcapsu-les '6, I41 ,and M8 respectively.

With shells 2I5'and 2 I6 -assembled=as=shown-, their enclosed volume is very-nearly zero,*-so that the pressure impulses delivered by the transmitter will have a maximum e'fiect thereon.

Each capsule is provided :with'adoreatherport similar to orifice 224 shownin-capsule I49. These breather ports permit each capsuleto adjust itself to changes ambient atmospheric pressure and temperature, therebyeliminating-any errors that could be caused by variations in-same. Furthermore, such breather portseliminate the possibi-lity' ofcondensation occurring Within the cap-- sule assemblies: and associated parts. Itis tobe noted that the breather sports are in theform of relatively small orifices, thereby permittingthe capsules torespondproperly to the pressure im pulses ':Ztransm'itte'dthereto.

A plurality of roeker arms I55, 156, I 51,458

are: pivoted to the 'platel25" by --means (if-pivot shafts 159, is I, 152, I63 and the rocker arms have their rear extremities I64, N55, 16B, 161, extending .so as-to be in juxtaposition to drivingstuds? 26 I 5282, 263, l 264, respectively, affiXed -to thepressure responsive capsules. 'The'rrontends I68; I69; I! I I12, of the-rocker arms are adapted to .actuate'the recordingpens 32, 3 I 29, 28, in=a manner .awhich is best understood =.by reference to.:F.ig.fi15. i 'In Fig. 15,:it is-see-n that the pens 32, 31,:.29,128,:2'I,-are carried by-pen-connecting linl-zsl2fl5, '2B6, 20 'I,-'-2t8,-2ll9. *An inkwell '2I-0 ismounted onthe recorder proper,- the well having a-supply of ink 2H. and a lid 2l2i haVi-nga series of apertures, one of. whiohisssholwnat 2-13. The recording pens are conventional:capi1lary ink fed pens; that .is, hollowitubestwith points afiixed to the frontends, and;--as=.shown Fig. 15, the rear ends :being bentxidownward'ly so as to :projectthrough. the -'.apertures in. the .lidrof the inkwell below the surface ofthe ink. .:The.-.pen-conneoting links.- are ipivoted forrotation with-respectztorthe lid :2 I2;:by:.means. of pivot aarrangements; zone of which iSiLShOWILl-lfl. Fig; 15, andisidesignatedzisby the number 214. The forwardendsvof: theupericonnecting links supportthe pens approximately atthe'ir middle point. .The rearward ends: ofithe pen-econnecting. links: are-ainLthei form:.of::an.:in-

9 verted V, the ends of the V-section being forked so as to grip the front ends I88, I99, I1I, I12 of the direction rocker arms, and the front end I8I of the speed rocker arm.

The above arrangement results in reciprocating motion of the recording pens in response to any reciprocating motion of the corresponding rocker arms. Thus, the pens will continuously record a straight line on the chart until actuated by their associated pressure capsule (or velocity rocker arm, in the case of velocity), at which time, a short mark is made at right angles to the normal straight-line marking.

Cooperating with the front ends of the rocker arms and adapted to be actuated thereby is the slide-bar I13, which is slidably mounted upon the front wall I26 by means of a bolt and slot arrangement. The slide-bar I13 has a plurality of vertically projecting tongues I14, I15, I19, I11, each of the tongues being located in juxtaposition to the ends I58, I69, I1I, I12 of the rocker arms. A spring I80 has one end afrixed to the wall I26 and the other end amxed to the slidebar I13 to return the slide-bar I13 and the rocker arms to their normal position after same have been moved under the influence of the moving ends of pressure responsive capsules. A stop, I90, cooperates with tongue I11 to limit motion of slide-bar I13.

The rocker arms I55, I58, I51, I58, comprise the wind direction components of the recording mechanism and their associated pens will produce suitable markings on the chart 33 in re-- sponse to any actuation of the arms. The impulses of fluid pressure travelling through the conduit 22 are selectively transmitted to th pressure responsive capsules and these capsules will undergo a momentary expansion in volume in response to the impulse in fluid pressure, thereby causing the driving studs MI, 202, 203, 294, to actuate the rocker arms. The frequency of the impulses will determine the number of markings made by the direction recording pens in any given time interval. The total number of markings in the time interval of recording will be indicative of the wind velocity during the time interval and for this reason, it is apparent that wind velocity can be determined solely from the wind direction markings. However, with the normal shifting of the wind encountered, it would be necessary for an observer to follow three or four tracks on the chart to determine wind velocity. Such an arrangement would be relatively complicated and to simplify the determination of wind velocity, a fifth recording pen 21 is arranged to give velocity markings along a single track on the chart in response to actuation of the direction recording pens.

The pen 21 is carried by a rocker arm I18 having suitable pivot arrangements I19 for permitting the arm I18 to move with respect to the plate I25. The forward end I8I of the rocker arm I18 cooperates with a fifth tongue I82 carried by the slide-bar I13. A spring I83 is provided to urge the arm I18 against the tongue I82. With this arrangement, it is obvious that any movement of the slide-bar I13 will cause corresponding movement of the arm I18, which, in turn, will cause the pen 21 to make a mark on the chart. Thus, a single track of velocity markings is provided, for the slide-bar I13 is actuated in response to each impulse of pressure delivered by the transmitter 20.

With the arrangement so far described, a series 18 of uniform markings will be provided on the chart to indicate velocity.

To further facilitate reading the chart, a suitable mechanism has been provided to amplify every tenth actuation of the arm I18 which, in turn, will produce an amplified marking on the chart so that each tenth velocity marking can be readily distinguished from the balance of the markings. To provide for this motion amplification, an auxiliary rocker arm I84 is pivoted at I85 with respect to the plate I25. The ends of the arm I84 are forked around an auxiliary tongue I88 provided on the slide-bar I13. A pawl I81 is carried by the other end of the arm I84 and cooperates with a toothed ratchet wheel I88 which, in turn, is suitably mounted for rotation with respect to the plate I25. The ratchet wheel I 88 carries a triangular cam I89 which cooperates with the rear extremity i9I of the rocker arm I18.

The pawl I81 is pivotally mounted on arm I84 and is properly biased by spring I92. A second pawl I93 is pivotally mounted on plate I25 and is designed so as to engage ratchet wheel I88 and prevent movement thereof when the pawl I81 is being returned to its starting position. Spring I94 maintain the pawl I93 against the ratchet wheel. An adjustable stop I95 cooperates with pawl I81 to prevent over-travel of same. The ratchet wheel I88 has a pair of cylindrical plates I96, I91 aifixed to its faces to form guides for the engaging edges of pawls I81, I93.

As the slide-bar I13 reciprocates in response to iInpulses of pressure delivered by the transmitter 20, the auxiliary rocker arm I84 and its associated pawl I81 will cause the cam I89 to be rotated in a step-by-step fashion. Such rotation will bring an apex of the cam I89 in proximity to the rear extremity I9I of the rocker arm I18. On the tenth actuation of the auxiliary arm I84 during each cycle of actuations, the apex of cam I89 will deliver an additional kick to the rocker arm I18 and thus amplify its total motionabout the pivot I19. The amplification of the total motion of rocker arm I18 will result in amplified motion of the recording pen 21, which, in turn, will produce an amplified marking of the chart. Figs. 11, 12, and 13 show the sequence of the operation described above. In Fig. 11, the arm I18 is in its starting position against the tongue I82. In Fig. 12, the slide-bar I13 has been actuated by an impulse of pressure and the arm I18 correspondingly actuated. The tongue I11 is against stop I98 in this position. Simultaneously, the arm I84 has actuated the pawl I81, which, in turn, moves the cam I89 against the extremity of arm I18, giving same an extra kick to amplify its motion. This motion amplification is shown by the separation of arm I18 from its associated tongue I82.

Operation of the complete assembly The transmitter 20 is designed so that 1255 revolutions of the rotor 25 represent one mile of wind flow past the transmitter. The cam 51 makes one complete revolution per unit of wind velocity, whether the measurement be in miles per hour, knots, or kilometers per hour. The gears 55, 58 can be matched to the particular speed scale desired. In the case of miles per hour, the cam 51 will make one revolution per mile of wind flow.

In like manner, the bellows 64 will deliver one impulse of pressure for each mile of wind flow and the recording pens will make one mark for each mile of wind flow. In the recorder selected.

11 the chart moves three (3) inches per hour, the chart being conveniently divided 'first'into hours and then subdivided into two-minute intervals to permit an accurate reading of velocities of short duration.

For any selected hours movement of the chart, the total number of pen markings will represent the total miles of wind flow; that is to say, miles per hour wind velocity. Furthermore, the total markings will be a measure of average velocity throughout the recording interval. Instantaneous values of wind velocity can be determined upon interpolation of adjacent markings during a selected time interval.

Assuming that the wind is'coming from the north direction, the bellows 68 will generate impulses of'fiuid pressure in accordance with the magnitude of Wind velocity; These impulses of pressure will be transmitted to port 86 of the distributor valve assembly from whence it will be transmitted to pressure capsule M9; The capsule I49 will actuate the pen 28 to produce direction markings on the chart33. Simultaneously with the actuationof pen 2'8, slide-bar 1'53 will actuate pen Z'ito produce velocity markings on the chart.

If the Wind direction shifts from almost true north to north-east; the impulses of pressure will be divided among the ports 86 and 88 and the pressure capsules E49 and M8, respectively, will simultaneously respond to the divided impulse of pressure to actuate the pens 28 and 29, respectively. As before, actuation of the pens 28 and 29 willalso cause actuation of the pen 2?. Thus for each impulse of pressure generated by bellows 68; the velocity pen 2"? will be actuated once; not withstandin the fact that one or two direction pens are actuated, as the case may be.

Whatisclaimed and desired to be secured by United States Letters Patent is:

1. In apparatus responsive to wind velocity and direction, in combination: means for confining a fluid under substantially constant pressure; means for intermittently changing the pressure of said confined fluid in response to wind flow of a predetermined quantity; a plurality of means adapted to be actuated in response to said changes in fluid pressure; and valve means responsive 'to' wind direction for'selectively determining which of said last-named means shall'be actuated in response to said changes in fluid pressure, said valve means being interposed between said first-named means and said last-named means.

2. In apparatus responsive to wind velocity and direction, in combination: means'for confining a fluid under-substantially constant pressure; means for intermittently changing the pressure of said confined fiuid in response to wind flow of a predeterminedquantity; a plurality of means adapted to be actuated in response to said changes in fluid pressure; valve means responsive to wind direction for selectively determining which of said last-named means shall be actuatedin response to said changes in fluid pressure, said'valve means being interposed between said first-named means and said last-named means; and means responsive to the actuation of said plurality of means for recording each actuation. thereof.

3. In apparatus responsive to wind velocity and direction, in combination: a first expansible chamber; means for intermittently varying the volume of said chamber in response to wind flow of a predetermined quantity; a plurality of sec- 0nd expansible chambers communicating with said first chamber whereby the volume of said second chambers can be varied intermittently in response to the variations in volume of said first chamber, each of said second chambers" corresponding to one of the four cardinal compass directions; means'responsive to wind direction interposed between said first chamber and said second chambers for selectively communicating said first chamber with said second chambers in' a predetermined manner; and individual meansoperatively linked to each of said second chambers and adapted to be actuated in response to variations in volume of said second chambers.

4. In apparatus responsive to the velocity anddirection of wind, in combination: a first expansible chamber; means for intermittently varying the volume of said first chamber in response to wind fiow of a predetermined quantity; aplurality of second expansible chambers com-.- municating with said'first chamber whereby the volume of said second chambers can be varied intermittently in response to the variations'in volume of said first chamber; means interposed between said first chamber and said second chambers for selectively varying communication therebetween in a predetermined manner in response to wind direction; individual means operatively linked to each of said second chambers and adapted to be individuallyactuated inv response to variations in. volume of each of-said second chambers, and means for recording each actuation of each of said last-named means during a predetermined interval of time.

5. In apparatus responsive to the velocity and direction of Wind, in combination: a first expansible chamber; means for intermittently varying the volume of said first chamber in response to wind fiow of a predetermined quantity; a plurality of second expansible chambers communicating with said first chamber whereby the volume of said second chambers can be varied intermittently in response to the variations in volume of said first chamber; means interposed between said first chamber and said second chambers for selectively varyin communication therebetween in a predetermined manner in response to wind direction; individual'means operatively linked'to each of'said second chambers and adapted to be individually actuated in response to variations in volume of each of said second chambers; a member'actuated-by anyone of saidindividual means; and means for recording each actuation of said-member and each actuation of each of said individual means.

6. In apparatus responsive toxthe' velocity and direction of wind incombination-z a first expansible chamber; means for intermittently varying the volume of said first chamber in response to wind flow of apredetermined quantity; a plurality of second expansible chambers communicating with said first chamber whereby the volume of said second chambers can be varied intermittently in response to the variations in volume of-said first chamber; means interposed between said first chamber and said second chambers for selectively varying communication therebetween in a predetermined manner in response to wind direction; individual means operatively linked to each of said second chambers and adapted to be individually actuated in response to variations in volume of each of said second chambers; a member actuated by any one of said individual means; meansfor recording each actuation of said member and each actu- '13 ation of each of said individual means; and means for periodically amplifying the actuation of said member in response to a predetermined number of actuations of said member, said recording means serving to indicate that amplified actuation.

7. In combination, a transmitter responding to wind velocity and direction; means carried by said transmitter for generating an impulse of fluid pressure in response to a predetermined quantity of wind flow; four paths carried by said transmitter for directing the flow of said impulse of fluid pressure, said paths corresponding to the cardinal compass directions north, south, west and east; valve means carried by said transmitter responsive to Wind direction for directin said impulse of fluid under pressure in at least one of said paths; flexible means coupled to said transmitter for carrying said four paths to a point remote from said transmitter; .a recorder stationed at said remote point and including four fluid pressure responsive means, said flexible means being coupled to said recorder for connecting each or" said paths to acorresponding fluid pressure responsive means; four pens carried by said recorder, each one of said pens being operatively linked to a corresponding fluid pressure responsive means and adapted to be moved thereby to record wind direction; and a chart cooperating with said pens, said chart moving at a predetermined rate past said pens.

8. In combination, a transmitter responding to wind velocity and direction; means carried by said transmitter for generating an impulse of fluid under pressure in response to a predetermined quantity of wind flow; four paths carried by said transmitter for directing the flow of said impulse of fluid pressure, said paths correspondin to the cardinal compass directions north, south, west, and east; valve means carried by said transmitter responsive to wind direction for directing said impulse of fluid under pressure in at least one of said paths and no more than two of said paths corresponding to adjacent cardinal compass directions; flexible means coupled to said transmitter for carrying said four paths to a point remote from said transmitter; a recorder stationed at said remote point and including four fluid pressure responsive means, said flexible means being coupled to said recorder for connecting each of said paths to a corresponding fluid pressure responsive means; four pens carried by said recorder, each one of said pens being operatively linked to a corresponding fluid pressure responsive means and adapted to be moved thereby to record wind direction; and a chart cooperating With said pens, said chart moving at a predetermined rate past said pens.

9. In combination, a transmitter responding to wind velocity and direction; means carried by said transmitter for generating an impulse of fluid under pressure in response to each predetermined quantity of wind flow; four paths carried by said transmitter for directing the flow of said impulse of fluid pressure, said paths corresponding to the cardinal compass directions north, south, west and east; valve means carried by said transmitter responsive to wind direction for directing said impulse of fluid under pressure in at least one of said paths and no more than two of said paths corresponding to adjacent cardinal compass directions; flexible means coupled to said transmitter for carrying said four paths to a point remote from said transmitter; a recorder stationed at said remote point and including four fluid pressure responsive means, said flexible means being coupled to said recorder for connecting each of said paths to a corresponding fluid pressure responsive means; four pens carried by said recorder, each one of said pens being operatively linked to a corresponding fluid pressure responsive means and adapted to be moved thereby to record wind direction; a chart cooperating with said pens, said chart moving at a predetermined rate past said pens; a fifth pen carried by said recorder; and means forfmoving said fifth pen in response to each impulse of fluid pressure transmitted to said fluid pressure responsive means thereby to record unit quantity of wind flow.

10. In combination, a transmitter responding to wind velocity and direction; means carried by said transmitter for generating an impulse 'of fluid under pressure in'response to a predetermined quantity of Wind flow; four paths carried by said transmitter for directing the flow of said impulse of fluid pressure, said paths corresponding to the cardinal compass directions north, south, west and. east; valve'means carried by said transmitter responsive to wind direction for directing said impulse of fluid under pressure in at least one'of'said paths and no more than two of said paths corresponding to adjacent cardinal compass directions; flexible means coupled to said transmitter for carrying said four paths to a point remote from said transmitter; a recorder stationed at said remote point and including four fluid pressure responsive means, said flexible means being coupled to said recorder for connecting each of said paths to a corresponding fluid pressure responsive means; four pens carried by said recorder, each one of said pens being operatively linked to a corresponding fluid pressure responsive means and adapted to be moved thereby to record wind direction; a chart cooperating with said pens, said chart 7 moving at a predetermined rate past said pens;

a fifth pen carried by said recorder; means for moving said fifth pen in response to each impulse of fluid pressure transmitted to said fluid pressure responsive means thereby to record unit quantity of wind flow; and means responsive to movement of said fifth pen for periodically amplifying the motion of said fifth pen, the said amplified pen movement producing a chart marking diiferent from the chart markings for normal movements of said fifth pen.

11. In apparatus responsive to wind velocity and direction, in combination: a first member rotating in response to quantity of wind flow; a flexible bellows having closed ends; means for expanding and then collapsing said bellows in response to a predetermined number of rotations of said rotating member; a plurality of pressure responsive capsules communicating with the interior of said bellows, a second member rotating in response to wind direction; valve means actuated by the rotation of said second member and interposed between said bellows and said capsules, said valve means operating to selectively communicate the interior of said bellows with the interior of said capsules in a predetermined manner; and individual means operatively linked toeach of said capsules and adapted to be actuated in response to changes in volume of said capsules.

12. In apparatus responsive to wind velocity and direction, in combination: a first member rotating in response to quantity of wind flow; a flexible bellows having closed ends; means for expanding and then collapsing saidbello'ws in response toapredetermined number of :rotations .of said rotating member; a pluralityof pressure responsive capsules communicating with theinterior of said bellows; each of said pressure responsive capsules corresponding to one: of the four cardinal compass directions, north, east, south,.west, respectively; a second-memberrotating in response to wind direction; valve means actuated by the rotation of said second member and interposed between-said bellows and said capsules, said valve means operating to selectively communicate the interior of said" bellows with theinterior of at least one of said capsules and no more than two of said capsules corresponding to adjacent cardinal compass directions; and individual means operatively linked, to each of said .capsulesand adapted to be actuated in responseto changes in volume of, said capsules.

13. The combination defined by claim 12, wherein means are provided for recordingeach actuation of said means linked to said capsules,

14. In apparatus-responsive to windvelocity and direction, in combination: a first-member rotating in response toquantity of, windfiow; a flexible bellows having closed ends; means for expanding and then collapsing said bellows in response to a predetermined number of rotations of said rotating member; apluralityaof pressure responsive capsules communicating with the interior of said bellows; each of said pressure responsive capsules corresponding to one of the four cardinal compass directions, north, east, south, west, respectively; a second member rotating in response-to wind direction; valve means actuated by the rotation of said second member and interposed between said bellows. and said capsules, said valve meansoperating to selectively communicate the interior of said bellows with'the interior of at least one of said capsules and no more than two of said capsules corresponding to adjacent cardinal compass directions; individual means operatively linked to each of said capsules and adapted to be actuated in response to changes in volume of said capsules; a'first member adapted to be actuated by each actuation of said first means; and meansfor recording each actuation of said individual means and said first member.

15. The combination defined by claim 14,

a Number 16 wherein there is provided a second member adapted to be actuated by each actuation of said individual means, said secondmember serving to periodically amplify the actuation ofsaid first member in response to a predetermined number of actuations of said individual means.

16; In apparatus responsive to wind velocity and direction, in combination: a first member rotating in response to quantity of wind flow; a flexible bellows having closed ends; means for expanding and then collapsing said bellows in response to a predetermined number of rotations of said rotating member; a second member rotating in response to Wind direction; an orifice in said second member; means placing said orifice in communication with the interior of saidbellows; a fixed post on which said second member rotates; a first pair of diametrically disposed ports located on said post; a second pair of diametrically disposed ports located on said post at right angles to said first pair of ports, said pairs of ports being axially displaced on said post, each port of said pairs subtending a peripheral angle on said post greater than but less than said orifice being elongated so as to register with both pairs of ports; a plurality of pressure responsive capsules corresponding to each port of said pairs, each of said capsules having abreather port; means for communicating the interior of said capsules with its respective port; and individual means operatively linked to each of said capsules and adapted to be actuated in response to a change in volume of its associated capsules.

17. The combination defined by claim 16, wherein means are provided to record each actuation of said means operatively linked to said capsules.

LOUVAN E. WOOD. VERNON D. HAUCK.

References Cited in the file of this patent UNITED STATES'PATENTS Name Date Hesse Aug. 14, 1883 Randi Mar. 25, 1941 May Nov. 25, 1941 Thomas et al Dec. 25, 1945 

